ES2144099T5 - APPARATUS FOR THE EXTINCTION OF FIRE TO IMPULSION. - Google Patents

Abstract

The invention relates to an apparatus for impulse fire extinguishing comprising an ejection tube for the fire fighting powder or liquid and a container for a gasous propellant, being connected to said ejection tube and there is a quick action closing element between the container and the ejection tube, wherein the quick action closing element is arranged in the propellant container to move freely therein and at the same time separating the container into two parts: a propellant chamber and an equalizing chamber, wherein the ejection end of the ejection tube is extending into the air space, meanwhile the input end thereof is arranged in the propellant chamber in a way that it is open in the first position of the quick action closing element and closed in the other position thereof. <MATH>

Description

Apparatus for extinguishing fires a impulsion.

The present invention is related to a apparatus according to the preamble of claim 1. A known apparatus of these characteristics thanks to WO 90/07373 (EP 0 402 425) and EP 0 689 857.

All firefighting methods They aim to eliminate one of the conditions of the combustion. For this purpose, the temperature of the burning material below the ignition temperature, or either exclude oxygen, which sustains combustion.

In order to decrease the temperature of the burning material, the fire extinguishing material (water, dust, halon) should be dispersed as thin as possible, which nevertheless decreases the effective distance of firefighting. On the other hand, if the effective distance is increased, the emitted jet will not reach the flames or the burning material more than in a very small surface area. Therefore, its cooling efficiency is low, and the cooling agent consumption is high. At the same time, in the case of extinction with water, secondary damages are quite
important.

You can get a pretty much extinction efficient by extruding oxygen, although it is difficult ensure the necessary exclusion, especially in open spaces or partially open. In such cases, for example, when performs the extinction by means of dust, the concentration of dust issued to space must exceed the concentration value Critical (100-500 g / s / m2) of the powder to be use to extinguish the fire.

Traditional fire extinguishers, such as they can be the jets of water or of dust, consist by norm general in a container for the fire extinguishing agent, a pump or ducts and an outlet nozzle. The resistance of the ducts and the nozzle, however, limits the amount of fire extinguishing agent that can be emitted in a while unitary. Therefore, the concentration necessary to extinguish the fire with the jets available achieved in extreme cases, no matter how much you try.

If the fire extinguishing agent could mixed with fine air or other gases, one could ensure more efficient extinction. However, no equipment is known. atomizers or jets that meet this requirement.

An apparatus was developed for downloading in the airspace with great energy, according to the document US-A 4,687,135. The device propellant will achieved by means of a gas combustion that resembles a Explosion, and powdered metal, ceramic, materials electrically conductive or electrically resistant insulators in heat, they flow to the nozzle. The pulverized substance that flows from the nozzle, heated until almost reaching its point of fusion, precipitates with great energy on the treated surface forming a layer on it. The device works periodically

This device is theoretically capable of downloading unlimited quantities of product, but in practice it is slow, since that the increase in the amount discharged per unit of time It is restricted by the atomizer system. Consequently, this device cannot be used for fire fighting.

The object of the present invention is therefore provide an apparatus, by means of which a large amount of fire extinguishing material at once in the airspace thanks to the use of a propellant. The invention is based on the recognition that if the material is downloaded high speed fire extinguisher in the air, the air resistance can be increased to the point that it is capable of breaking the mass of liquid into drops because of the impact, which resembles the behavior of finely powders pulverized Thus, the discharge rate of the extinguishing material of fires is a crucial aspect, and, consequently, the problem of emit a large amount of fire extinguishing material in form of particles thin enough to air is a matter of emission rate

In accordance with the present invention, the apparatus of firefighting with the characteristics of the claim 1 comprises an ejection tube for the powder or the fire extinguishing liquid and a container for a propellant gas connected to said ejection tube, in which it is located a quick-acting closure element between the container and the ejection tube The quick action closing element is arranged in the container so that it can move freely within it, separating it at the same time into two parts: a propellant chamber and a compensation space. He ejector end of the ejection tube extends into space aerial, while the entry end is arranged in the propellant chamber in such a way that it is open in the first position of the quick and closed action closing element in the other position of it.

The pressure inside the compensation chamber must be higher than the one in the propellant chamber, existing filling pipes connected to both the chamber of propellant as to the clearing house.

The quick-action closing element can consist of a membrane that supports a seat plate which has perforations or a piston, into which a Inlet pipe in the ejection pipe through the chamber Compensation and quick action closing element.

Firefighting with the apparatus of according to the present invention can be carried out in a exceptionally short period of time. Material cloud fire extinguisher fills the space around the fire in about 0.01 s.

As a result of the extremely high speed of the extinction process, damage caused by fire They are minor. Its total and immediate efficiency is especially advantageous in the cases in which teams are involved in a location, in which the fire can be extinguished immediately after starting, without wasting time.

The amount of fire extinguishing material required to carry out the extinction is greatly reduced from according to the invention. In case of fire fighting interiors, using water as fire extinguishing material, the firefighting can be carried out with about 1.5-2 m3 of water. It is possible to produce a cloud of scattered water to extinguish a fire in an enclosed space with 10-15 liters of water. Can extinguish a AS-100 outdoor test fire using 6-7 liters of water according to the invention, in instead of the 100 liters allowed by industrial standards.

The invention will be described below with greater detail by way of examples with reference to the drawings Associates, in which:

Fig. 1 is a longitudinal section of a embodiment of the invention,

Fig. 2 is the longitudinal section of another embodiment of the invention,

Fig. 3 is the longitudinal section of another further embodiment of the invention and

Fig. 4 is the longitudinal section of another More embodiment of the invention.

The apparatus shown in Fig. 1 comprises an ejection tube 1 and a propellant gas container 2. He upper (ejection) end of ejection tube 1 is free, and the lower (inlet) end thereof is covered by a Quick-closing item 3. The propellant gas is housed in the gas container 2 coming from a gas tank 4 through of pipes 41, 42 and 42 '. The pipe 42 is connected to the upper part of the gas container 2 by means of the valve 23, and the pipe 42 'is connected to the bottom of the container 2 of gas by means of the valve 24. The valve 24 also contains a 5 quick release valve.

The operation of the device according to the invention is as follows:

The propellant chamber 21 and the chamber 22 of Compensation is filled with propellant gas (air, CO 2 etc.) and a pressure of at least 10 bar is created in the gas container 2. Valves 23 and 24 are controlled in such a way that the pressure (P2) in the compensation chamber 22 exceeds the pressure (P1) in the Propellant chamber 21. Then, the device is separated from the system which supplies the propellant gas.

During filling, the valve 5 releases Quick is closed. The pressure (P2) in chamber 22 of compensation ensures that the quick-acting closing element 3 is press against the outlet end of the ejection tube 1 and, at same time, it separates the propellant chamber 21 from the charge 11 in the ejection tube 1.

The relationship between the volume of the tube ejection and the volume of the load should adjust to between 25-100% Its effect is in proportion direct to the cone angle of the dispersion, that is, if the ratio  between the volumes is smaller, the cone angle of the dispersion It will be smaller too. At a lower volume ratio, coverage of the apparatus is greater and the atomization is finer and more homogeneous

The relationship between the volume of the load and the volume of propellant gas, measured under normal conditions, will significantly influence the demarcation of the field of Appliance application This ratio can be adjusted to between 30 and 750. Obviously, this characterizes the magnitude of the energy Used for ejection. In addition, the apparatus according to the invention can be manufactured in such a way that it is portable, or It can be manufactured with larger dimensions and a construction static

Manual uses, such as Small fire extinguishers, not only do not require large amount of energy, but also the use of this is not recommended, since the recoil force may be excessive, causing operator injury.

At the same time, the invention allows production of devices suitable for extinguishing oil explosions  or gas Such an apparatus sits on fixed supports away from the extraction tower, carrying out ejection with such amount of energy that not only the fire extinguishing load should be effective, but also the flame would be extinguished only by blowing.

There is no need to increase the unlimited energy Air resistance limits, on the one hand, the interval, narrowing the dispersion by another. For that reason, not it is necessary to exceed 750 so that the relation of volumes is refer.

After filling the propellant chamber and the compensation chamber and the introduction of the load in the tube ejection, the compensation chamber pressure is released by opening the quick release valve. The pressure remaining in the propellant chamber then removed so Immediate the quick-action closing element and releases the Inlet end of ejection tube. The propellant gas causes then the explosion of the ejection tube charge in space surrounding.

After ejection, the load of the apparatus, in this way the apparatus can be operated in a manner periodic.

The speed of the process over time and the The magnitude of the energy used plays a decisive role. Yes the propellant drops below the load for a period greater than 20 ms, or if the propellant pressure does not reach 10 bar, then neither the size of the liquid drops nor its distribution, will be homogeneous, and the size of the drops will be superior to fog, dew or spray. Therefore, it is extremely important to apply a quick-action closing element and a quick release valve.

Fig. 2 shows another embodiment of the invention. This apparatus is similar to that shown in Fig. 1 and therefore the same reference numbers apply. This form However, it contains a closing element of rapid action in the form of a membrane 31.

A seat plate 26 provided with perforations 261, 262 is applied as a part of the element of quick-acting closure in order to support the membrane 31. On the other part of the membrane 31, the bottom is arranged 27.

Seat plates 26 and 27 are connected to each other by means of screws 29, while the gas container 2 and seat plate 26 are preferably welded to each other. The pressure difference between the chamber 21 of propellant and compensation chamber 22 is controlled by a check valve 43, so the valve 23 is not necessary.

The membrane 31 is held against the plate 26 of seat thanks to the upper pressure P2 existing in chamber 22 of compensation to close the perforations 261, 262. When open the quick release valve, the gas contained in chamber 22, and membrane 31 deforms into the interior of the chamber 22 due to gas pressure P1 in chamber 21 of propellant, opening the perforations 261, 262 in the plate 26 of seat, and putting chamber 21 in communication with tube 1 of ejection such that the propellant gas expels the medium fire extinguisher from tube 1.

Fig. 3 shows an embodiment of the present invention, in which the action closure element fast consists of a piston 32 provided with a sealing ring 35 between its outer surface and the inner wall of the container 2 of gas, and with a gasket 34 between the inlet end of the ejection tube and the corresponding end surface of the piston 32.

An inlet pipe 6 is arranged so shutter inside piston 32, in order to decrease the preparation time required to load the ejection tube 1. The sealing ring 33 is disposed between the inlet pipe 6 and cylinder 32. Inlet pipe 6 is connected to a reservoir of fire extinguishing material and passes through the wall of a threaded cover 28 and close the compensation chamber 22.

Fig. 4 shows an embodiment similar to that represented by Fig. 3, but this time the sealing element between the cylinder 32 and the inner wall of the Gas container 2 is a special V-ring 36, which is capable of controlling the pressure in the propellant chamber 21.

By applying the device according With the present invention, damage can practically be avoided caused by water during the extinction of internal fires, It can also reduce water consumption considerably. Another advantage of the invention is that the amount of water available may be enough to extinguish larger fires wingspan. This is important in the case of fire in places in which there is a shortage of water, in which fire engines They can only use the water they carry.

Firefighting according to the The present invention is totally harmless to man. Different experiments showed that water fog can be expelled against a person from 3 meters away without causing no harm. The cloud surrounds the human figure and the surfaces are they will get wet because of the turbulence. Fog does not cause injuries No discomfort

It is also possible to use extinguishing materials of fires producing air and foam in the apparatus according to the invention, but these materials have no effect extraordinary. In some cases, it may be useful to disperse the air and foam producing materials, which become foam when they find heat. In this way, the efficiency highly refrigerant and suffocating fog smoke can combine with the surface coverage capacity of the foam.

Claims (8)

1. Apparatus for driving fire extinguishing by ejecting a liquid or powder fire extinguishing means, the apparatus comprising an ejection tube (1) for a liquid or powder fire extinguishing means (11); a container (2) for a gas propellant and a quick-acting closure element (3, 31, 32) between the container (2) and the ejection tube (1), the ejection tube having an ejection end that is open to the atmosphere and an inlet end to communicate with the propellant container, characterized in that the ejection tube (1) extends into the propellant container (2), because the ejection tube (1) and the container ( 2) Propellant are arranged on the same side of the closure element (3, 31, 32) that is mounted on the container (2) so that it closes the ejection tube (1) and insulates the container tube (2) of propellant gas, the apparatus also including a means (5) for releasing the closure element (3, 31, 32) to an open condition in which the ejection tube (1) is subject to the pressure of the propellant, expelling from that way the extinguishing medium of
fires. 2. Apparatus according to claim 1, characterized in that the propellant container is separated by the closure element in a propellant chamber and a compensation chamber, the closure element being pushed to the closed condition by the pressure in the compensation chamber . 3. The apparatus according to claim 1 or claim 2, characterized in that the filling pipes are connected both to the propellant chamber and to the compensation chamber. The apparatus according to any one of claims 1 to 3, characterized in that the quick-acting closure element comprises a membrane. 5. The apparatus according to claim 4, characterized in that the membrane is supported by a seat plate provided with perforations. The apparatus according to any one of claims 1 to 3, characterized in that the quick-acting closing element comprises a piston. 7. The apparatus according to claim 6, characterized in that the inlet pipe passes through the wall of the propellant chamber and the cylinder. 8. Use of an appliance according to any of the Claims 1 to 7 to promote firefighting.